Gamma ray bursts (GRBs), the brief flashes of light signalling distant, extremely energetic events, have been elusive targets for astronomical observation. (It's something like the fairground game of Whack-a-Mole:by the time you're aware of the GRB, it's vanished, and you have no way of knowing where the next one will appear.) An orbiting observatory that quickly alerts ground-based astronomers about GRBs has allowed a very quick response and an unprecedented look at the GRBs' aftermath.

Yesterday I presented my second talk, this time on the use of blogs and wikis to do laboratory research. This was under the Chemical Education symposium: Communicating Chemistry. Most of the talks were about teaching so it was perhaps not the best audience but that doesn't concern me as much since I started recording my talks at conferences. And if I hadn't presented there I would have missed meeting Thomas Poon, whose high quality organic chemistry pre-lectures I have used in my classes as an extra resource for a while.

The NPR interview on Open Science I discussed two weeks ago has aired and is now available. I think it was very well balanced. The positive aspects of not losing failed experiments was weighed against the difficulties in publishing in some journals and of deriving profit.

This post is about an article by Schacter et al (pdf) regarding how the constructiveness of memories may crucially be due to the need to simulate future scenarios. But before I go to the main course, I would like to touch upon a starter: Jeff Hawkins Heirarchical Temporla Memory (HTM) hypothesis.

I have been watching way too much CSI. For those who haven’t seen the popular American television show, it is about a team of highly skilled Crime Scene Investigators who use keen observational skills and high tech gadgetry to solve crimes each week in Las Vegas (The franchise also includes Miami and New York).

Scientists at the University of Illinois have fabricated the world’s smallest chain-mail fabric. Combined with existing processing techniques, the flexible, metallic fabric holds promise for fully engineered smart textiles.

"The miniature fabric is an important step toward creating textiles where structure and electronics can be designed, integrated and controlled from the ground up," said Chang Liu, a Willett Scholar and a professor of electrical and computer engineering at Illinois.

Micrograph of released metallic fabric that is expanded to the maximum area. Photo courtesy Chang Liu

DNA testing carried out by University of Leicester geneticists and funded by The Wellcome Trust has thrown new light on the ancestry of one of the USA’s most revered figures, the third President, Thomas Jefferson.

Almost 10 years ago, the University of Leicester team, led by Professor Mark Jobling, together with international collaborators, showed that Thomas Jefferson had fathered at least one of the sons of Sally Hemings, a slave of Jefferson’s.

The work was done using the Y chromosome, a male-specific part of our DNA that passes down from father to son.

Scientists at the Naval Research Laboratory - Stennis Space Center (NRL-SSC) have directly derived the air-sea momentum exchange at the ocean interface using observed ocean currents under Hurricane Ivan and determined that it decreases when winds exceed 32 meters per second. This is the first time that momentum exchange at the air-sea interface has been directly calculated from ocean current observations under extreme winds generated by a major tropical cyclone.

Although it's been more than a year since Mount Augustine had its memorable eruption, work continues for University of Alaska Fairbanks researchers. The work of Alaska Volcano Observatory employees from UAF's Geophysical Institute will be appearing in the upcoming issue of the journal Science.

The Virginia Tech chemistry research group that has been creating molecular complexes that use solar energy to produce hydrogen from water has added an additional capacity to their supramolecule.

Karen Brewer, professor of chemistry, explains that the new, more robust molecules still harness light and covert it to chemical energy by splitting water to produce hydrogen. “What is different is the way the systems function. It is a three part molecule. The first part is a light absorber, harnessing visible and UV light. The second part is an electron reservoir. The third part is the catalysis to make hydrogen from water.” All of these sub-units are coupled into one large supramolecular assembly.